Names proposed for two new chemical elements, 114 and 116

In “Newest chemical elements get proposed names” (CBC News, December 2, 2011), we learn: “Elements 114 and 116 will likely be called flerovium, livermorium”:

Scientists at the Lawrence Livermore National Laboratory-Dubna collaboration, which discovered the two elements, have proposed that element 114 be named flerovium and given the atomic symbol Fl to honour the Flerov Laboratory of Nuclear Reactions in Dubna, Russia, where a number of super-heavy elements, including element 114, were made.

Five months of public comments will be allowed before final approval.

While the heaviest element has an atomic number of 116, the official periodic table still contains only 114 elements because elements 113 and 115 haven’t been officially accepted yet.

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As a sidelight to this, every class of elements that exists on the periodic table of elements is necessary for complex carbon-based life to exist on earth. The three most abundant elements in the human body, Oxygen, Carbon, Hydrogen, ‘just so happen’ to be the most abundant elements in the universe, save for helium which is inert. A truly amazing coincidence that strongly implies ‘the universe had us in mind all along’. Even uranium the last naturally occurring ‘stable’ element on the period table of elements is necessary for life. The heat generated by the decay of uranium is necessary to keep a molten core in the earth for an extended period of time, which is necessary for the magnetic field surrounding the earth, which in turn protects organic life from the harmful charged particles of the sun. As well, uranium decay provides the heat for tectonic activity and the turnover of the earth’s crustal rocks, which is necessary to keep a proper mixture of minerals and nutrients available on the surface of the earth, which is necessary for long term life on earth. (Denton; Nature’s Destiny). These following articles and videos give a bit deeper insight into the crucial, and amazing, role that individual elements play in allowing life:

For the first 400,000 years of our universe’s expansion, the universe was a seething maelstrom of energy and sub-atomic particles. This maelstrom was so hot, that sub-atomic particles trying to form into atoms would have been blasted apart instantly, and so dense, light could not travel more than a short distance before being absorbed. If you could somehow live long enough to look around in such conditions, you would see nothing but brilliant white light in all directions. When the cosmos was about 400,000 years old, it had cooled to about the temperature of the surface of the sun. The last light from the “Big Bang” shone forth at that time. This “light” is still detectable today as the Cosmic Background Radiation.
This 400,000 year old “baby” universe entered into a period of darkness. When the dark age of the universe began, the cosmos was a formless sea of particles. By the time the dark age ended, a couple of hundred million years later, the universe lit up again by the light of some of the galaxies and stars that had been formed during this dark era. It was during the dark age of the universe that the heavier chemical elements necessary for life, carbon, oxygen, nitrogen and most of the rest, were first forged, by nuclear fusion inside the stars, out of the universe’s primordial hydrogen and helium.
It was also during this dark period of the universe the great structures of the modern universe were first forged. Super-clusters, of thousands of galaxies stretching across millions of light years, had their foundations laid in the dark age of the universe. During this time the infamous “missing dark matter”, was exerting more gravity in some areas than in other areas; drawing in hydrogen and helium gas, causing the formation of mega-stars. These mega-stars were massive, weighing in at 20 to more than 100 times the mass of the sun. The crushing pressure at their cores made them burn through their fuel in only a million years. It was here, in these short lived mega-stars under these crushing pressures, the chemical elements necessary for life were first forged out of the hydrogen and helium. The reason astronomers can’t see the light from these first mega-stars, during this dark era of the universe’s early history, is because the mega-stars were shrouded in thick clouds of hydrogen and helium gas. These thick clouds prevented the mega-stars from spreading their light through the cosmos as they forged the elements necessary for future life to exist on earth. After about 200 million years, the end of the dark age came to the cosmos. The universe was finally expansive enough to allow the dispersion of the thick hydrogen and helium “clouds”. With the continued expansion of the universe, the light, of normal stars and dwarf galaxies, was finally able to shine through the thick clouds of hydrogen and helium gas, bringing the dark age to a close. (How The Stars Were Born – Michael D. Lemonick)http://www.time.com/time/magaz.....-2,00.html

Job 38:4-11
“Where were you when I laid the foundations of the earth? Tell me if you have understanding. Who determined its measurements? Surely you know! Or who stretched a line upon it? To what were its foundations fastened? Or who laid its cornerstone, When the morning stars sang together, and all the sons of God shouted for joy? Or who shut in the sea with doors, when it burst forth and issued from the womb; When I made the clouds its garment, and thick darkness its swaddling band; When I fixed my limit for it, and set bars and doors; When I said, ‘This far you may come but no farther, and here your proud waves must stop!”